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Three-dimensional electron backscattered diffraction analysis of deformation in MgO micropillars
Publikationstyp
Journal Article
Publikationsdatum
2011-11
Sprache
German
Enthalten in
Volume
59
Issue
19
Start Page
7241
End Page
7254
Citation
Acta Materialia 59 (19): 7241-7254 (2011-11)
Publisher DOI
Scopus ID
Small-scale testing is extensively used to study the effects of size on plasticity or characterise plastic deformation of brittle materials, where cracking is suppressed on the microscale. Geometrical and experimental constraints have been shown to affect small-scale deformation and efforts are underway to understand these better. However, current analytical techniques tend to possess high resolution in only one or two dimensions, impeding a detailed analysis of the entire deformed volume. Here electron backscattered diffraction in three dimensions is presented as a way of characterising three-dimensional (3-D) deformation at high spatial resolution. It is shown that, by reconstruction of compressed and then successively sliced and indexed MgO micropillars, this 3-D technique yields information complementary to μ-Laue diffraction or electron microscopy, allowing a correlation of experimental artefacts and the distribution of plasticity. In addition, deformation features which are difficult to visualise by standard scanning electron microscopy are easily detected, for example where only small surface traces are produced or minimal plastic strain can be introduced before failure in brittle materials.
Schlagworte
Compression test
Crystalline oxides
Electron backscattering diffraction
Plastic deformation
Scanning electron microscopy